Archive for April, 2017

QGD predicts that black holes are extremely dense but not infinitely so. Considering that are strictly kinetic and that no two can simultaneously occupy any given then . It follows that or, since is the fundamental unit of space, we can simply write for the minimum corresponding radius .

For the radius of the black hole predicted to be a the center of our galaxy, and where the mass is expressed in and radius in . Though converting this into conventional units requires observations to determine the values of the QGD constants and , using relation between QGD and Newtonian gravity, we also predict that the radius within which light cannot escape a massive structure is where is used to represent the gravitational constant. Since the Schwarzschild radius for a black hole of mass is then .

Using to calculate the angular radius of the shadow of Sagitarius A*, the black hole at the center of our galaxy, we get arcsecond as a minimum value which is about 10 times the angular radius calculated using the Schwarzschild radius which i arcsecond. This prediction will be tested in the near future by the upcoming observations by the Event Horizon Telescope.